# # Copyright (C) 2013 The Android Open Source Project # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # """Utilities for update payload processing.""" from __future__ import absolute_import from __future__ import print_function import base64 from update_payload import update_metadata_pb2 from update_payload.error import PayloadError # # Constants. # SIG_ASN1_HEADER = ( b'\x30\x31\x30\x0d\x06\x09\x60\x86' b'\x48\x01\x65\x03\x04\x02\x01\x05' b'\x00\x04\x20' ) BRILLO_MAJOR_PAYLOAD_VERSION = 2 SOURCE_MINOR_PAYLOAD_VERSION = 2 OPSRCHASH_MINOR_PAYLOAD_VERSION = 3 BROTLI_BSDIFF_MINOR_PAYLOAD_VERSION = 4 PUFFDIFF_MINOR_PAYLOAD_VERSION = 5 KERNEL = 'kernel' ROOTFS = 'root' # Tuple of (name in system, name in protobuf). CROS_PARTITIONS = ((KERNEL, KERNEL), (ROOTFS, 'rootfs')) # # Payload operation types. # class OpType(object): """Container for operation type constants.""" _CLASS = update_metadata_pb2.InstallOperation REPLACE = _CLASS.REPLACE REPLACE_BZ = _CLASS.REPLACE_BZ SOURCE_COPY = _CLASS.SOURCE_COPY SOURCE_BSDIFF = _CLASS.SOURCE_BSDIFF ZERO = _CLASS.ZERO DISCARD = _CLASS.DISCARD REPLACE_XZ = _CLASS.REPLACE_XZ PUFFDIFF = _CLASS.PUFFDIFF BROTLI_BSDIFF = _CLASS.BROTLI_BSDIFF ALL = (REPLACE, REPLACE_BZ, SOURCE_COPY, SOURCE_BSDIFF, ZERO, DISCARD, REPLACE_XZ, PUFFDIFF, BROTLI_BSDIFF) NAMES = { REPLACE: 'REPLACE', REPLACE_BZ: 'REPLACE_BZ', SOURCE_COPY: 'SOURCE_COPY', SOURCE_BSDIFF: 'SOURCE_BSDIFF', ZERO: 'ZERO', DISCARD: 'DISCARD', REPLACE_XZ: 'REPLACE_XZ', PUFFDIFF: 'PUFFDIFF', BROTLI_BSDIFF: 'BROTLI_BSDIFF', } def __init__(self): pass # # Checked and hashed reading of data. # def IntPackingFmtStr(size, is_unsigned): """Returns an integer format string for use by the struct module. Args: size: the integer size in bytes (2, 4 or 8) is_unsigned: whether it is signed or not Returns: A format string for packing/unpacking integer values; assumes network byte order (big-endian). Raises: PayloadError if something is wrong with the arguments. """ # Determine the base conversion format. if size == 2: fmt = 'h' elif size == 4: fmt = 'i' elif size == 8: fmt = 'q' else: raise PayloadError('unsupport numeric field size (%s)' % size) # Signed or unsigned? if is_unsigned: fmt = fmt.upper() # Make it network byte order (big-endian). fmt = '!' + fmt return fmt def Read(file_obj, length, offset=None, hasher=None): """Reads binary data from a file. Args: file_obj: an open file object length: the length of the data to read offset: an offset to seek to prior to reading; this is an absolute offset from either the beginning (non-negative) or end (negative) of the file. (optional) hasher: a hashing object to pass the read data through (optional) Returns: A string containing the read data. Raises: PayloadError if a read error occurred or not enough data was read. """ if offset is not None: if offset >= 0: file_obj.seek(offset) else: file_obj.seek(offset, 2) try: data = file_obj.read(length) except IOError as e: raise PayloadError('error reading from file (%s): %s' % (file_obj.name, e)) if len(data) != length: raise PayloadError( 'reading from file (%s) too short (%d instead of %d bytes)' % (file_obj.name, len(data), length)) if hasher: hasher.update(data) return data # # Formatting functions. # def FormatExtent(ex, block_size=0): end_block = ex.start_block + ex.num_blocks if block_size: return '%d->%d * %d' % (ex.start_block, end_block, block_size) return '%d->%d' % (ex.start_block, end_block) def FormatSha256(digest): """Returns a canonical string representation of a SHA256 digest.""" return base64.b64encode(digest).decode('utf-8') # # Useful iterators. # def _ObjNameIter(items, base_name, reverse=False, name_format_func=None): """A generic (item, name) tuple iterators. Args: items: the sequence of objects to iterate on base_name: the base name for all objects reverse: whether iteration should be in reverse order name_format_func: a function to apply to the name string Yields: An iterator whose i-th invocation returns (items[i], name), where name == base_name + '[i]' (with a formatting function optionally applied to it). """ idx, inc = (len(items), -1) if reverse else (1, 1) if reverse: items = reversed(items) for item in items: item_name = '%s[%d]' % (base_name, idx) if name_format_func: item_name = name_format_func(item, item_name) yield (item, item_name) idx += inc def _OperationNameFormatter(op, op_name): return '%s(%s)' % (op_name, OpType.NAMES.get(op.type, '?')) def OperationIter(operations, base_name, reverse=False): """An (item, name) iterator for update operations.""" return _ObjNameIter(operations, base_name, reverse=reverse, name_format_func=_OperationNameFormatter) def ExtentIter(extents, base_name, reverse=False): """An (item, name) iterator for operation extents.""" return _ObjNameIter(extents, base_name, reverse=reverse) def SignatureIter(sigs, base_name, reverse=False): """An (item, name) iterator for signatures.""" return _ObjNameIter(sigs, base_name, reverse=reverse)